Morphological and physiological effects of a single amino acid substitution in the patatin-like phospholipase CapV in Escherichia coli

In rod-shaped bacteria morphological plasticity occurs in response to stress, which blocks cell division to promote filamentation. We demonstrate here that overexpression of the patatin-like phospholipase variant CapVQ329R but not CapV causes pronounced sulA-independent pyridoxine-inhibited cell filamentation and restriction of swimming and flagella production of Escherichia coli K-12 derivative MG1655. Mutational analyses of CapVQ329R indicated conserved amino acids in canonical patatin-like phospholipase A motifs, but not the nucleophilic serine to be required for the observed phenotypes. Furthermore, CapVQ329R alters rdar biofilm formation including expression of the biofilm activator CsgD. Moreover, commensal and pathogenic E. coli strains and Salmonella typhimurium also responded with cell filamentation and alteration in biofilm formation. In conclusion, this work identifies the CapV variant CapVQ329R as a pleiotropic regulator, emphasizes a scaffold function for patatin-like phospholipases and highlights the role of a single amino acid change for the evolution of protein functionality.